Optimal-observable analysis of possible new physics in B D()ττ

Abstract

We study all possible observables in B D()ττ with new physics (NP), including new vector, scalar and tensor interactions, and investigate the prospects of extracting NP Wilson coefficients with optimal observables. Analysis of the full q2 integrated branching fractions of B D()ττ show that the overall sensitivity of the observables of B D ττ is more towards the scalar current, whereas the bin-by-bin analysis of q2 distribution of the differential branching fraction points to regions of q2 sensitive to tensor interactions. Interestingly, the observables in B Dττ are more sensitive to tensor interactions, and bin-by-bin analysis of this mode shows the distinct regions of q2 sensitive to vector or scalar interactions. In addition to that, the τ polarisation asymmetry is found to be more sensitive to NP compared to the other observables, in both decay modes.